Patent application number | Description | Published |
20150063794 | INSTANTANEOUS WATER-HEATING DISPENSING DEVICE AND HEATING MODULE THEREOF - The present invention discloses a water dispensing device including a water tank and at least one heating module. Each heating module includes a body and a heating plate, the body includes a groove, an input terminal located one end of the groove and connected the water tank, an output terminal located other end of the groove, and a plurality of ribs. The ribs formed on the bottom surface of the groove and the height is less than a depth of the groove, two arms of the ribs connect the sidewalls of the groove, and the density of the arrangement is decremented from the input terminal to the output terminal. The heating plate is covered the groove and doesn't contact the ribs, and the surface of the heating plate which is deviated from the groove has a plurality of heating units, be used to convert the power into the heat energy. | 03-05-2015 |
20150071624 | INSTANTANEOUSLY HEATING WATER DISPENSER AND CONTROL METHOD THEREOF - An instantaneously heating water dispenser, electrically connected with an external power, includes a voltage detection module, a voltage compensation module, a water tank, a heating module, and a control module. The voltage detection module detects a voltage level of the external power. The voltage compensation module operates in coordination with the voltage detection module and stabilizes the voltage level of the external power. The heating module electrically connected with the voltage compensation module is connected with the water tank, and converts the external power compensated into a thermal energy. The control module is electrically connected with the heating module and the voltage compensation module and configured for controlling the amount of water flow injected into the heating module and the thermal power generated by the heating module according to the amount of water to be dispensed from the instantaneously heating water dispenser and the associated water temperature. | 03-12-2015 |
20150085298 | OPTICAL SENSOR ARRAY APPARATUS - Disclosure is related to an optical sensor array apparatus. According to one embodiment of the invention, multiple sensor pixels are arranged as an array and forming a sensor array. Every comparator circuit is connected to one sensor pixel so as to calculate its energy state. A light source such as laser is installed in the apparatus. A control circuit is provided to recognize the sensor pixels' energy states for determining the spatial interference difference made by the reflected ray. The sensor array apparatus may be adapted to various surfaces since the light intensity and exposure time is able to be modulated as a compensation mechanism. | 03-26-2015 |
20150085299 | LIGHT TRACING METHOD AND APPARATUS THEREOF - Disclosure is related to a light tracing method, and an apparatus thereof. According to one embodiment of the invention, the apparatus is such as an optical indexer. The method for determining a moving direction is performed based on an optical constructive or destructive interference pattern made by reflected lights received by a sensor chip. In particular, the coherent light may be preferably used in order to enhance the interference effect. In an exemplary embodiment, the method includes firstly the sensor pixels in the sensor chip receiving the reflected light, and calculating the energy. Next, within a time slot, the energy state of each sensor pixel can be calculated. A moving vector may be determined from a difference between the binary energy states of the adjacent sensor pixels. The binary energy state is based on a comparison between every sensor pixel and a statistic average within the sampling time slot. | 03-26-2015 |
20150097778 | OPTICAL SENSING MODULE, LASER POINTING DEVICE USING THE SAME AND THE FABRICATING METHOD THEREOF - An optical sensing module includes an image sensing element having an optical sensor array and at least a control unit. A light emitting chip provides a coherent light. The light is reflected from an outside surface and to be received by the optical sensor array. A substrate is mounted with the image sensing element and the light emitting chip. A cover is mounted on the substrate to cover the image sensing element and the light emitting chip, and the cover includes a first light-transmitting portion on the transmission path of the light. The optical sensing module is disposed on a base having a second light-transmitting portion on the transmission path of the light. | 04-09-2015 |
20150115867 | SOLAR ENERGY HARVESTING PROTECTING SHEATH AND BACK-SIDE COVER FOR MOBILE DEVICE - The present disclosure provides a solar energy harvesting protecting sheath for installing to the back-side cover of a mobile device. The solar energy harvesting protecting sheath comprises a body, a solar energy receiving unit, a solar energy harvesting circuit, a thermal resistive layer and an energy transmission interface. A containing portion of the body is for accommodating the mobile device. The solar energy harvesting circuit is disposed in the body and coupled to the solar energy receiving unit. The solar energy harvesting circuit has at least an energy storage unit for storing solar energy. The thermal resistive layer disposed in the body is placed between the solar energy receiving unit and the solar energy harvesting circuit. The energy transmission interface is coupled to the energy storage unit and transmits the energy in the energy storage unit to the mobile device through an electrical connector of the mobile device. | 04-30-2015 |
20150130394 | ADAPTIVE SOLAR ENERGY HARVESTING DEVICE - The present disclosure provides an adaptive solar energy harvesting device comprising a solar energy receiving unit, a voltage converter and a charging power controller. The voltage converter has an input terminal and an output terminal. The input terminal of the voltage converter is coupled to the solar energy receiving unit, and receives the electric energy generated by the solar energy receiving unit through the input terminal. The charging power controller is coupled to the output terminal of the voltage converter, and senses the supply voltage at the output terminal of the voltage converter. The charging power controller generates a charging voltage and a charging current to charge at least an electricity storage unit. The charging power controller adjusts the charging voltage and the charging current according the feed-forward control related to the supply voltage at the output terminal of the voltage converter. | 05-14-2015 |
20150193019 | MOBILE APPARATUS WITH OPTICAL INDEXER, AND METHOD FOR INDEXING USING THE SAME - Disclosure is to a mobile apparatus having an optical indexer, and a method for performing indexing. The mobile apparatus includes an optical indexing module for sensing a movement. A control interface is generated in simulation and displayed on the mobile apparatus as it apparatus operates as a computer mouse. In the method, the simulated control interface is initiated in the beginning. The optical indexing module is activated to perform a tracing process, in which the optical indexing module emits a light and receives, especially by the multiple sensing cells arranged in an array, the reflected light. The photo energy received by the every sensing cell within a time slot can be computed. The energy difference in the time slot is used to determine a moving direction. An indexing signal is generated by converting movement signal made by optical indexing module and control signal from the simulated control interface. | 07-09-2015 |